ARTAS® Robotic System provides a comprehensive suite of tools to minimize donor area scarring following hair transplantation

Introduction

The ARTAS® Robotic System facilitates hair restoration surgery through minimally invasive follicular unit harvesting. Patient benefits include; precise graft harvesting, minimal post-op discomfort and no linear donor scar. By preserving the natural appearance of the donor area, it allows patients to wear shorter hairstyles without detecting the wound scars. This is an important goal for many people seeking surgical hair restoration. Factors that influence scarring in the donor area include: dissection punch size, density of harvest sites, distribution of the harvest sites, total number of sites, and the ‘blending in’ of harvest zones with unharvested areas. The ARTAS Robotic System provides a unique, comprehensive suite of tools that physicians can use to minimize donor area scarring and offer the patient greater styling options post-surgery.

Case Study

The patient is a 46-year old white Caucasian male with Norwood Stage 5A Male Pattern Baldness. He has dark brown, straight hair of medium-fine caliber and a donor density of 2.1hairs/mm2. His skin color is Fitzpatrick Type III (Photo 1).

The patient underwent harvesting with the ARTAS Robotic System using features available with the new software version 7.0 (2014). The following tools helped to preserve the natural appearance of the donor area.

“No F1s” Software Algorithm: A new intelligent software algorithm that preferentially harvests follicular units containing multiple hairs (F2 or more). This maximizes the amount of hair follicles which are harvested per graft.

Minimum Distance Between Harvest Sites: An intelligent algorithm controls the minimum distance between harvests sites. The minimum distance was increased from 1.7mm to 2.0mm and accommodates decreasing hair density as the dissection progressed from the occipital scalp to the sides of the head. It also enables a blending or “feathering” effect between harvested and non-harvested zones making the harvesting less noticeable.

Intuitive Controls: This gives the user the ability to make adjustments in real-time, allowing the physician to adapt to changes in the characteristics specific to each patient’s donor area.

The patient had 2,540 harvests to obtain a total of 2,768 grafts for implantation (Photo 2). The average number of hairs per follicular unit was 2.6 and the harvest yield was 95.2% prior to splitting the grafts to obtain more 1-hair follicular units. Post-operative care of the donor area consisted of gentle washing and applying ointment (Bacitracin®, AQUAPHOR®) for 7 days to keep the donor area moist to facilitate healing.

During the third post-operative month, the patient returned to the clinic to undergo an examination of his donor area and an evaluation of the visibility of wound scars. His donor area hair was gradually shortened to different lengths in order to see how short he could wear his hair before scarring from the harvest sites was detectable. The hair lengths were:

#2 Clippers 6mm (Photo 3)

#1 Clippers 3mm (Photo 4)

Close cut using the Wahl Peanut Clippers 1.5mm (Photo 5)

Shaved down to the skin (Photo 6)

Even when the hair was shaved down to the skin, the detectability of the wound scars was extremely low. The harvest zones blended, or transitioned, into the unharvested areas so that there were no detectable changes in hair density as one progressed from one region of the scalp to another.

Immediately Post-Procedure

Three Months Post-Procedure

Photos courtesy of Bernstein Medical – Center for Hair Restoration

Conclusion

The ARTAS Robotic System provides a comprehensive suite of tools to minimize the detectability of wound scars post-surgery and maintain the natural appearance of the donor area.

The ARTAS® System from Restoration Robotics is indicated for harvesting hair follicles from the scalp in men diagnosed with androgenetic alopecia (male pattern hair loss) who have black or brown straight hair. The ARTAS System is intended to assist physicians in identifying and extracting hair follicular units from the scalp during hair transplantation.

The ARTAS® System from Restoration Robotics is indicated for harvesting hair follicles from the scalp in men diagnosed with androgenetic alopecia (male pattern hair loss) who have black or brown straight hair. The ARTAS System is intended to assist physicians in identifying and extracting hair follicular units from the scalp during hair transplantation. The ARTAS System is also indicated for creating recipient sites for subsequent manual implantation of the harvested follicles.